裂纹在混凝土中碳钢氯化物腐蚀中的作用——综述

A. Poursaee, B. Ross
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引用次数: 5

摘要

混凝土中钢筋的氯离子腐蚀研究主要集中在腐蚀产物形成的裂缝上。然而,关于裂缝(预裂混凝土)对腐蚀影响的研究数量有限。裂缝为氯化物、水和氧气进入混凝土创造了优先/自由的通道;因此,混凝土中裂缝的存在会加剧钢筋的氯化物腐蚀。本文综述了裂缝对混凝土中钢筋腐蚀的影响。裂缝对混凝土耐久性的负面影响已在文献综述中得到广泛报道。它们在起始和扩展阶段影响氯化物渗透和钢筋的氯化物诱导腐蚀。这种影响是许多因素的复杂函数,包括混合设计、暴露条件、裂缝频率、裂缝方向、裂缝宽度和覆盖深度。虽然人们普遍认为裂纹对腐蚀的开始起作用,但裂纹及其宽度对腐蚀的长期扩展的作用仍在争论中。
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The Role of Cracks in Chloride-Induced Corrosion of Carbon Steel in Concrete—Review
The majority of works in the field of chloride-indued corrosion of steel in concrete are focused on the cracks formed by the corrosion products. However, the number of studies on the influence of cracks (pre-cracked concrete) on corrosion is limited. Cracks create preferential/free paths for the penetration of chlorides, water, and oxygen into concrete; thus, the presence of cracks in concrete can intensify chloride-induced corrosion of steel reinforcement. This paper presents a review of the effects of cracking on the corrosion of steel in concrete. It was widely reported in the reviewed papers that cracks have a negative impact on concrete durability. They influence the chloride penetration and the chloride-induced corrosion of reinforcement in terms of the initiation and propagation stages. This influence is a complex function of many factors, including mix design, exposure conditions, crack frequency, crack orientation, crack width, and cover depth. Although there is a general agreement on the effects of cracks on the initiation of corrosion, the role of cracks and their widths on the propagation of corrosion in the long term is still under debate.
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